R. Farr, Wilson K. M. Wong, Cody-Lee Maynard, S. Tersey, R. Mirmira, A. Hardikar, M. Joglekar
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引用次数: 1
摘要
循环无细胞DNA (cfDNA)作为多种癌症的诊断和预后标志物已被广泛研究。近年来,血液循环中存在未甲基化的胰岛素cfDNA与胰腺β细胞死亡和发生1型糖尿病的风险相关。数字(d)PCR是一种越来越流行的定量胰岛素cfDNA的方法,因为它能够确定绝对拷贝数,并且与更常用的定量PCR相比,它的灵敏度更高。已经开发了多种平台来进行dPCR。然而,并非所有技术的性能都具有可比性,因此有必要对每个平台进行评估。在这里,我们比较了两种dPCR平台:QuantStudio 3D (QS3D, Applied Biosystems)和QX200 (Bio-Rad),以测量未甲基化/甲基化胰岛素质粒的拷贝。QS3D比QX200(手动模式)检测到更多的质粒拷贝数,而QX200显示出最小的复制变异,增加了吞吐量,易于使用和自动化的潜力。总体而言,我们掌握的QX200的性能更适合测量差异甲基化的胰岛素cfDNA。
Comparative analysis of diagnostic platforms for measurement of differentially methylated insulin DNA
Circulating cell-free DNA (cfDNA) has been intensively investigated as a diagnostic and prognostic marker for various cancers. In recent years, presence of unmethylated insulin cfDNA in the circulation has been correlated with pancreatic β-cell death and risk of developing type 1 diabetes. Digital (d)PCR is an increasingly popular method of quantifying insulin cfDNA due to its ability to determine absolute copy numbers, and its increased sensitivity when compared to the more routinely used quantitative PCR. Multiple platforms have been developed to carry out dPCR. However, not all technologies perform comparably, thereby necessitating evaluation of each platform. Here, we compare two dPCR platforms: the QuantStudio 3D (QS3D, Applied Biosystems) and the QX200 (Bio-Rad), to measure copies of unmethylated/methylated insulin plasmids. The QS3D detected greater copy numbers of the plasmids than the QX200 (manual mode), whereas QX200 demonstrated minimal replicate variability, increased throughput, ease of use and the potential for automation. Overall, the performance of QX200, in our hands, was better suited to measure differentially methylated insulin cfDNA.
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